The Pathfinding behavior uses the A* pathfinding algorithm to efficiently find a short path around obstacles. It can either report the path as a list of nodes through expressions, or automatically move the object along the determined path.
For examples of how Pathfinding works and is used, search for Pathfinding in the Start dialog.
The pathfinding grid
The pathfinding behavior works based on dividing the layout in to a grid. Since pixel-perfect pathfinding can be extremely slow to process, dividing the layout in to cells makes the pathfinding enormously more efficient. The cell size can be set in the behavior property, and the larger it is the more efficient pathfinding is. However setting a large cell size can cause problems: a cell can only be entirely obstacle or entirely free, and using large cells can close up small gaps. For example take the following arrangement of obstacles using a cell size of 32:
It appears that objects should be able to freely move around in between these objects. However if the cells that the pathfinding behavior marks as obstacle are highlighted in red, we see this:
Some of the gaps have been closed off due to the cell size being relatively large compared to the size of the gap. This will make the pathfinding behavior route paths entirely around the obstacles, and never through them. We can help fix this by reducing the cell size to 20:
Now we can see that the Pathfinding behavior will be able to find routes between these obstacles. However, the smaller cell size will make the pathfinding more CPU intensive. Generally, try to use the largest cell size that does not cause problems navigating around obstacles.
The Cell border property can adjust how cells are marked as obstacle. If the border is larger than 0, then cells close to obstacles but not actually touching may also be marked as obstacles, effectively giving an extra "obstacle border". If the border is negative, cells only just touching an obstacle may not be marked as an obstacle, effectively shrinking the obstacle area inwards. The image below demonstrates the effect of different cell border values when using a cell size of 20.
For best efficiency, use the same cell size and border for all objects using the Pathfinding behavior in a layout. If different objects use different values, then the Pathfinding behavior must generate multiple obstacle grids in memory, and pathfind along them separately. You should also avoid pathfinding every tick, since this will cause extremely high CPU usage and also increase the amount of time it takes for other objects to determine their paths.
The grid of obstacles is only determined once on startup. If objects are moved in the layout, the pathfinding grid is not updated, and objects will continue to pathfind as if the objects were in their old positions. To update the entire obstacle grid use the Regenerate obstacle map action, but note this is a very CPU-intense operation and should only be done on one-off occasions. It is much more efficient to update only small parts of it (ideally only the area that has changed), which can be done with the Regenerate region and Regenerate region around object actions.
Note all cells outside the layout area are always obstacles. Areas outside the layout area cannot be included in the pathfinding grid, since doing so would require an infinite amount of memory.
Calculating a path can take a long time, especially if the cell size is small. To prevent this reducing the game's framerate, the paths are calculated in the background (using a Web Worker). This means after using the Find path action, the resulting path is not immediately available. You must wait for the On path found trigger to run. Only then can you move the object along the path, or access the list of nodes from the behavior's expressions. The game may continue to run for a fraction of a second in between Find path and On path found.
The result path is a sequence of nodes along the grid. The image below demonstrates a four-node path (nodes 0 to 3).
The nodes can be retrieved (only after On path found) using the NodeCount and NodeXAt/NodeYAt expressions. Alternatively, the Move along path action can be used to automatically move the object along the nodes, using the speed, acceleration and rotation rate set in the behavior's properties.
Note it may be impossible to find a path, such as trying to navigate to a destination inside a ring of obstacles. In this case, On failed to find path will be triggered instead of On path found.
If you ask the pathfinding behavior to pathfind to a destination inside an obstacle, it will simply find the nearest clear cell and pathfind to there instead.
The cell size, in pixels, of the grid of obstacles. See above for more details about how this is used.
The amount, in pixels, to expand the cell size by when testing for obstacles. See above for more details about how this is used.
If Solids, the behavior will automatically mark cells touching objects with the Solid behavior as being obstacles. If Custom, you must define which objects are obstacles by using the Add obstacle action on startup.
If the Move along path action is used, the maximum speed in pixels per second the object can move at.
If the Move along path action is used, the acceleration rate in pixels per second per second.
If the Move along path action is used, the deceleration rate in pixels per second per second, used when approaching the final node.
If the Move along path action is used, the rate at which the object can rotate in degrees per second. Note this can affect the speed of the object: if the rotation speed is low, the object will have to slow down on tight corners.
Whether to automatically set the angle of the object with the behavior to the angle of motion.
Whether paths moving along diagonals are allowed. If disabled, the result nodes along paths will only ever change at 90-degree angles (up, right, down and left). If enabled nodes can move along diagonals as well.
Whether the behavior is initially enabled or disabled. If disabled, it can be enabled at runtime using the Set enabled action.
If moving along a path, compare the current speed of the object in pixels per second.
Diagonals are enabled
True if the Diagonals property allows moving diagonally along cells. This can also be changed with the Set diagonals enabled action.
Is calculating path
True if the object is currently calculating a path in the background. This is true between the Find path action and the On path found or On failed to find path triggers.
Is cell obstacle
Test if a cell in the obstacle grid is marked as an obstacle. This is useful for debugging or displaying the obstacle grid. Note the position is taken in cell co-ordinates rather than layout co-ordinates.
Is moving along path
True after using the Move along path action until On arrived triggers.
Triggered after Move along path when the object finally arrives at its destination.
On failed to find path
Triggered after the Find path action if no path can be found to the destination, such as if it is surrounded by a ring of obstacles.
On path found
Triggered after the Find path action once a path has successfully been found to the destination. The nodes are now available via the NodeCount, NodeXAt and NodeYAt expressions, and the Move along path action can also be used.
If the Obstacles property is Custom, add an object to mark as an obstacle in the pathfinding grid. If this is done during the game (after Start of layout), you must also use Regenerate obstacle map for it to take effect.
Add path cost
Add an object to increase the path cost in the pathfinding grid. This can be used to simulate rough terrain - the behavior will try to find paths around them if possible, unless the route is a major shortcut. See Example: Pathfinding path cost in the Start dialog for a demo. If this is done during the game (after Start of layout), you must also use Regenerate obstacle map for it to take effect.
Remove all path cost objects added with Add path cost. You must also use Regenerate obstacle map for this to take effect.
Remove all obstacle objects added with Add obstacle. You must also use Regenerate obstacle map for this to take effect.
Start calculating a path to a destination in the layout. This is processed in the background and the results are not immediately ready after this action; you must wait until the On path found or On failed to find path triggers run before the result is known or the path can be moved along. If this action is used while Is calculating path is true, the old path is still calculated and the result triggered, but it then immediately begins calculating the new path and will also trigger for that result.
Regenerate obstacle map
Determine whether each cell in the obstacles grid is an obstacle again. This is a very CPU intensive action and should not be used regularly. If only part of the obstacle map has changed, prefer to use one of the Regenerate region actions. Any changes made by using Add obstacle, Clear obstacles, Add path cost and Clear cost will take effect the next tick after this action. Note this means if you attempt to find a path immediately after this action, the obstacle map won't have been updated yet; add a 'Wait' action with a short delay to make sure the updated map is used in that case.
Regenerate region around object
As with Regenerate obstacle map, but only the specified area is updated. This is usually considerably faster than regenerating the entire map. However as with regenerating the entire obstacle map, changes only take effect next tick. Regenerate region takes a rectangle in layout co-ordinates to regenerate. Regenerate region around object similarly regenerates the rectangle in the layout given by an object's bounding box. Note if multiple instances have met the event's conditions, this will regenerate multiple rectangles (one for every picked object).
Set whether the behavior is enabled or disabled. If disabled, it will not calculate any paths or move the object.
Move along path
Automatically start moving the object along the found path. This can only be used after On path found - the path is not immediately known after the Find path action.
Set the current speed of the object if it is currently moving along its path, in pixels per second. This cannot be negative or greater than the maximum speed of the behavior.
If the object is moving along its path, causes it to stop.
Set diagonals enabled
Set max speed
Set rotate speed
Set the corresponding behavior properties. See the property definitions above for more information.
When moving along a path, the zero-based index of the node the object is currently moving towards. This may skip ahead just before the object actually reaches the next node, in order to help it round corners.
The current angle of motion when moving along a path, in degrees.
The number of nodes in the path that was found. This is only updated after On path found.
Return the position of a node in the path that was found, in layout co-ordinates, using the zero-based index of the node. This is only available after On path found.
The current speed in pixels per second when moving along a path.
Return the current values of the behavior properties. For more information, see the property definitions above.